CN111254026A - Fermentation processing method of healthy wine brewing raw material - Google Patents

Abstract

The invention relates to a healthy wine brewing raw material fermentation processing method, which completes the manufacturing process of wine brewing raw materials through the cooperation of an installation plate, a workbench, a moving device, a rotary crushing device, a supporting device, a secondary filtering device and a container. The invention provides a fermentation processing method of healthy wine brewing raw materials, which can solve the problems that when grape juice is made manually, grapes are subjected to stem removal and cleaning, then the grapes are broken into juice, and after the grapes are broken, the grapes need to be filtered manually, so that the efficiency of making the grape juice manually is low, when the grape juice is made by using the existing wine brewing equipment, the grapes are extruded to juice, the grapes in the middle part are difficult to be broken completely due to the fact that more grape juice is extruded at a time in the extrusion process, and the impurities are easy to be filtered incompletely due to the fact that the existing wine brewing equipment is only filtered once.

Description

Fermentation processing method of healthy wine brewing raw material

Technical Field

The invention relates to the technical field of wine brewing, in particular to a method for fermenting and processing healthy wine brewing raw materials.

Background

Wine is an alcoholic beverage brewed from fresh grapes or grape juice by complete or partial fermentation. Generally, the wine is divided into three types, namely red wine, white wine and pink wine. Red wine is generally brewed from red grape varieties, white wine from white grape varieties or peeled red grape varieties, and pink wine from red grape varieties. According to the international wine organization, wine can only be a drink obtained after complete or partial alcoholic fermentation of crushed or uncrushed fresh grape fruits or juices, the alcoholic strength of which is generally between 8.5 ° and 16.2 °; according to the latest national standard GB15037-2006, the grape wine is an alcoholic beverage which is prepared by taking fresh grapes or grape juice as raw materials and fermenting all or part of the grapes or the grape juice, and the alcoholic strength of the alcoholic beverage is not lower than 7.0%.

The prior wine brewing equipment has the following problems in the process of fermenting and processing brewing raw materials:

(1) when grape juice is prepared by adopting a processing mode of manually preparing brewing raw materials, the grape is usually subjected to stem removal and cleaning, then the grapes are manually broken into juice, a large amount of labor force is wasted in the grape crushing process, and after the grapes are crushed, the grapes need to be manually filtered, so that the efficiency of manually preparing the grape juice is low, and the wine brewing preparation efficiency is low;

(2) when the conventional wine brewing equipment is used for fermenting and processing brewing raw materials, pressure is usually applied to grapes to enable the grapes to be juice, the grapes in the middle are difficult to completely crush due to single extrusion of more grape juice in the extrusion process, partial raw materials are wasted, the conventional wine brewing equipment is usually only filtered once, and impurities in the grape juice are easily filtered incompletely.

In order to make up the defects of the prior art, the invention provides a method for fermenting and processing healthy wine brewing raw materials.

Disclosure of Invention

The technical scheme adopted by the invention to solve the technical problem is as follows: a fermentation processing method of a healthy wine brewing raw material comprises the following steps:

s1, feeding: manually putting the grapes which are subjected to stem removal and cleaning into a screen drum;

s2, butt joint: after the feeding is finished, the U-shaped moving plate is manually pushed to enable the connecting block to be positioned right above the rotary installation shaft, after the position between the connecting block and the rotary installation shaft is determined, the locking screw is manually rotated to enable the locking block to fix the U-shaped moving plate, and the adjusting screw is manually rotated to enable the connecting block to be in butt joint with the rotary installation shaft;

s3, crushing: after the butt joint is completed, the cover plate is manually used for sealing the fixed cylinder, and after the sealing is completed, the rotating installation shaft is driven to rotate through the rotating motor, so that the crushed material blades smash the grapes, and the grape juice is extruded;

s4, filtering and separating: in the material crushing process, the driving gear is driven to rotate by rotating the mounting shaft, so that the driven gear drives the bottom sieve block and the sieve drum to rotate, the sieve drum is used for carrying out centrifugal separation and filtration on crushed grapes, and the bottom sieve block and the sieve drum are used for carrying out primary filtration on the crushed grapes as far as possible;

s5, secondary filtration: after separation, the primarily filtered grape juice falls to a drainage head, so that the primarily filtered grape juice is secondarily filtered by a filter sieve;

s6, blanking: dropping the secondarily filtered grape juice into a container for centralized collection;

in the process of fermenting and processing the brewing raw material in the steps S1-S6, the brewing raw material is fermented and processed by adopting a specially designed device, the device specifically comprises an installation plate, a workbench, a moving device, a rotary crushing device, a supporting device, a secondary filtering device and a containing container, the workbench is installed in the middle of the upper end of the installation plate, the moving device is installed at the upper end of the workbench, the rotary crushing device is installed in the moving device, the supporting device is installed in the rotary crushing device, the secondary filtering device is installed at the lower end of the rotary crushing device, the containing container is arranged below the secondary filtering device, and the containing container is placed in the workbench; wherein:

the moving device comprises a U-shaped moving plate, two dovetail blocks, two sliding plates, two cover plates, a locking block and a locking screw rod, the dovetail blocks are welded at the lower end of the U-shaped moving plate in a bilateral symmetry mode, the dovetail blocks are installed inside the workbench in a sliding fit mode, the sliding plates are installed at the middle part of the U-shaped moving plate in a bilateral symmetry mode in a sliding fit mode, the cover plates are welded at the inner sides of the sliding plates, the locking block is welded at the left side of the lower end of the U-shaped moving plate, the locking screw rod is installed at the upper end of the locking block in a thread fit mode, when the device works, the locking screw rod is manually rotated to separate the dovetail blocks from the workbench, so that the U-shaped moving plate is separated from the rotary crushing device, grapes which are subjected to stem removal and cleaning are manually placed into a screen cylinder, the U-shaped moving plate is manually, through artifical rotatory locking screw for the latch segment is fixed with the locking of U-shaped movable plate, and promotes the sliding plate to the inboard through the manual work, makes the apron sealed with rotatory crushed aggregates device upper end.

Rotatory crushed aggregates device includes rotary connection mechanism, the solid fixed cylinder, the toper baffle, crushed aggregates mechanism and separating mechanism, rotary connection mechanism leads to and installs in the inboard upper end of U-shaped movable plate, the rotary connection mechanism lower extreme is provided with the solid fixed cylinder, the welding of solid fixed cylinder lower extreme has the toper baffle, the toper baffle is installed at the workstation middle part, gu fixed cylinder internally mounted has crushed aggregates mechanism, crushed aggregates mechanism outside is provided with separating mechanism, and separating mechanism is located between solid fixed cylinder and the crushed aggregates mechanism, concrete during operation, it is rotatory to drive crushed aggregates mechanism through rotary connection mechanism, thereby make crushed aggregates mechanism smash out the juice with the grape that the stalk was washed, the grape is smashed out the juice in-process, it is rotatory to drive separating mechanism through crushed aggregates mechanism, thereby make separating mechanism carry out centrifugal separation to the grape after smashing, and then filter the grape after the breakage for the first time.

The utility model discloses a separation mechanism, including support device, strutting arrangement, three bracing piece and rotatory piece, the backup pad longitudinal symmetry welds in the fixed cylinder, the roller is installed through sliding fit's mode to the backup pad inboard, the inside upper end of sieve section of thick bamboo evenly welds the bracing piece, the bracing piece inboard links to each other through rotatory piece, rotatory piece passes through the bearing and installs in crushed aggregates mechanism upper end, concrete during operation, swivelling joint mechanism drives the rotatory in-process of separation mechanism, carry out spacing support to the separation mechanism outside through the backup pad, and carry out spacing support to the separation mechanism inboard through the bracing piece, thereby guarantee the separation mechanism job stabilization, and laminate mutually through roller and separation mechanism, thereby reduce the friction between backup pad and the separation mechanism.

As a preferred technical scheme of the invention, the rotary connecting mechanism comprises a rotary motor, a guide block, a guide rod, a thread block, an adjusting screw rod, a connecting block, two clamping blocks and two clamping springs, the guide block is welded on the left side of the rotary motor, the guide rod is installed inside the guide block in a sliding fit manner, the upper end of the guide rod is welded on a U-shaped moving plate, the thread block is welded on the right side of the rotary motor, the adjusting screw rod is installed inside the thread block in a threaded fit manner, the upper end of the adjusting screw rod is installed on the U-shaped moving plate in a threaded connection manner, the connecting block is welded at the output end of the rotary motor, the clamping blocks are symmetrically installed inside the connecting block in a sliding fit manner, the connecting block is connected with the clamping blocks through the clamping springs, and the clamping springs have the functions of locking, limiting and resetting, make the rotating electrical machines descend along the guide bar to make the connecting block descend, make connecting block and crushed aggregates mechanism joint, and extrude the chucking piece through the chucking spring, make the chucking piece die the crushed aggregates mechanism card and lock in the connecting block, the connecting block is died the locking back with crushed aggregates mechanism card, drives crushed aggregates mechanism rotation through the rotating electrical machines, thereby makes crushed aggregates mechanism will remove the grape after the stalk is cleaned and smash out juice.

As a preferred technical scheme of the invention, the crushing mechanism comprises a rotary mounting shaft, crushing blades, three crushing rods and three material mixing blocks, the upper end of the rotary mounting shaft is arranged in a connecting block in a sliding fit manner, the lower end of the rotary mounting shaft is arranged on a separating mechanism through a bearing, the crushing blades are welded on the upper part of the rotary mounting shaft, the crushing rods are welded on the lower end of the rotary mounting shaft, the crushed aggregates are evenly distributed along the circumferential direction of the rotating installation shaft, the lower end of the outer side of each crushed aggregate is welded with a material stirring block, when the device works, the rotating installation shaft is driven to rotate by the rotating motor, thereby driving the crushed aggregates blades to rotate, so that the crushed aggregates blades smash the grapes which are subjected to stem removal and cleaning into juice, and during the process of smashing the grapes into juice, the crushed aggregates are driven to rotate by rotating the mounting shaft, so that the grapes at the bottom are shoveled by the material stirring blocks, and the crushed aggregates are circularly smashed into juice by the crushed aggregates blades.

As a preferred technical scheme of the invention, the separating mechanism comprises a screen cylinder, a limiting ring, a bottom screen block, a driving gear, four driven gears and a protective cover, wherein the screen cylinder is positioned inside a fixed cylinder and is arranged on a supporting device in a sliding fit manner, the limiting ring is welded on the outer side of the lower end of the screen cylinder and plays a role in limiting and fixing the screen cylinder, the bottom screen block is welded inside the lower end of the screen cylinder, the driving gear is arranged in the middle of the bottom screen block and is welded on the lower end of a rotating installation shaft, the driven gears are uniformly arranged on the driving gear along the circumferential direction of the driving gear, the driven gears are arranged on the bottom screen block through bearings, the protective cover is arranged at the upper end of the bottom screen block in a threaded connection manner and plays a role in sealing protection on the driving gear and the driven gears, when the separating mechanism works, the, make driven gear drive bottom sieve piece and a sieve section of thick bamboo rotatory to make bottom sieve piece and a sieve section of thick bamboo carry out centrifugal separation to the grape after smashing, and then carry out primary filter to the grape after smashing.

As a preferred technical scheme of the invention, the secondary filtering device comprises a drainage head and a filtering sieve, the upper end of the drainage head is arranged at the lower end of the conical baffle in a thread fit mode, the filtering sieve is connected to the upper end of the drainage head in a clamping mode, and the filtering sieve is arranged in the drainage head.

As a preferred technical scheme of the invention, the upper end of the rotating installation shaft is welded with a transverse short shaft, the transverse short shaft is clamped in the connecting block, and the transverse short shaft is clamped with the connecting block, so that the stable transmission between the rotating motor and the rotating installation shaft is ensured.

As a preferable technical scheme, the material stirring block is of a structure gradually downward from front to back, the baffle is arranged on the outer side of the upper end of the material stirring block, the structure that the material stirring block gradually downward is convenient for the material stirring block to scoop up the grapes at the bottom, the grapes at the bottom are circularly smashed into juice by the crushed material blades, and the baffle is arranged on the outer side of the material stirring block to enable the grapes to be scooped up and then to be close to the center, so that the crushed material blades can conveniently smash the grapes.

As a preferred technical scheme of the invention, the lower end of the limiting ring is provided with a ball, the lower end support plate is connected with the limiting ring through the ball, and the ball is convenient for reducing friction between the limiting ring and the lower end support plate and ensuring stable rotation of the screen drum.

As a preferred technical scheme of the invention, the lower end of the bottom sieve block is provided with a round hole, the middle part of the bottom sieve block is provided with an internal gear, the internal gear is meshed with the driven gear, the round hole is convenient for grape juice to flow out, and the internal gear is meshed with the driven gear to ensure synchronous and stable transmission.

Compared with the prior art, the invention has the following advantages:

1. according to the fermentation processing method of the healthy wine brewing raw materials, the grapes are crushed by the blades to produce the juice, after the juice is produced, the juice is separated by centrifugal filtration, and the brewing raw materials are prepared by a processing mode of filtering the primarily filtered juice for the second time, so that the labor force is saved, and the grape juice production steps are reduced, so that the wine brewing efficiency is improved;

2. according to the fermentation processing method for the healthy wine brewing raw materials, the rotating motor and the rotating installation shaft are detachable through the connecting block, so that the blades and the screen cylinder can be conveniently taken down for cleaning after grapes are crushed, and the clamping block is extruded through the clamping spring, so that the rotating installation shaft is clamped and locked in the connecting block by the clamping block, and stable and reliable transmission is ensured;

3. according to the fermentation processing method of the healthy wine brewing raw materials, the smashed grapes are subjected to centrifugal separation through the bottom sieve block and the sieve cylinder, the smashed grapes are subjected to primary filtration, grape juice subjected to primary filtration falls to the filter sieve, secondary filtration is performed, and the detachable filter sieve is arranged, so that solid particles in juice can be conveniently removed and cleaned;

4. according to the fermentation processing method for the healthy wine brewing raw materials, the grapes are crushed through the blades, so that the grapes can fully produce juice, the grapes at the bottom are shoveled through the stirring blocks with gradually downward structures in the grape crushing process, the grapes are circularly crushed by the crushed material blades to produce the juice, the baffle plates are arranged on the outer sides of the stirring blocks, so that the grapes are shoveled and then are close to the center, and the grapes are crushed by the crushed material blades conveniently.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a cross-sectional view (from front to back) of the present invention;

FIG. 4 is a cross-sectional view (from left to right) of the connecting block of the present invention and the rotary mounting shaft;

FIG. 5 is an enlarged view of a portion of FIG. 3 according to the present invention;

FIG. 6 is an enlarged, fragmentary view in the Y-direction of FIG. 3 of the present invention;

fig. 7 is a partially enlarged view in the Z-direction of fig. 3 according to the present invention.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to 7.

A fermentation processing method of a healthy wine brewing raw material comprises the following steps:

s1, feeding: manually placing the grapes which are stem-removed and cleaned into the sieve drum 451;

s2, butt joint: after the feeding is finished, the U-shaped moving plate 31 is manually pushed, so that the connecting block 416 is positioned right above the rotary mounting shaft 441, after the position between the connecting block 416 and the rotary mounting shaft 441 is determined, the locking block 35 fixes the U-shaped moving plate 31 by manually rotating the locking screw 36, and the connecting block 416 is butted with the rotary mounting shaft 441 by manually rotating the adjusting screw 415;

s3, crushing: after the butt joint is completed, the cover plate 34 is manually sealed with the fixed cylinder 42, and after the sealing is completed, the rotating motor 411 drives the rotating mounting shaft 441 to rotate, so that the crushed material blades 442 break the grapes, and grape juice is extruded out;

s4, filtering and separating: in the material crushing process, the mounting shaft 441 is rotated to drive the driving gear 454 to rotate, so that the driven gear 455 drives the bottom sieve block 453 and the sieve barrel 451 to rotate, the sieve barrel 451 is used for centrifugally separating and filtering crushed grapes, and the bottom sieve block 453 and the sieve barrel 451 are used for primarily filtering the crushed grapes;

s5, secondary filtration: after separation, the primarily filtered grape juice falls to the drainage head 61, so that the primarily filtered grape juice is secondarily filtered by the filter sieve 62;

s6, blanking: the grape juice after the secondary filtration falls into a container 7 for centralized collection;

in the process of fermenting and processing the brewing raw material in the steps S1-S6, the brewing raw material is fermented and processed by adopting a specially designed device, the device specifically comprises a mounting plate 1, a workbench 2, a moving device 3, a rotary crushing device 4, a supporting device 5, a secondary filtering device 6 and a containing container 7, the workbench 2 is mounted in the middle of the upper end of the mounting plate 1, the moving device 3 is mounted at the upper end of the workbench 2, the rotary crushing device 4 is mounted in the moving device 3, the supporting device 5 is mounted in the rotary crushing device 4, the secondary filtering device 6 is mounted at the lower end of the rotary crushing device 4, the containing container 7 is arranged below the secondary filtering device 6, and the containing container 7 is placed in the workbench 2; wherein:

the moving device 3 comprises a U-shaped moving plate 31, two dovetail blocks 32, two sliding plates 33, two cover plates 34, a locking block 35 and a locking screw 36, the dovetail blocks 32 are welded at the lower end of the U-shaped moving plate 31 in a bilateral symmetry mode, the dovetail blocks 32 are installed inside the workbench 2 in a sliding fit mode, the sliding plates 33 are installed at the middle of the U-shaped moving plate 31 in a bilateral symmetry mode in a sliding fit mode, the cover plates 34 are welded at the inner sides of the sliding plates 33, the locking block 35 is welded at the left side of the lower end of the U-shaped moving plate 31, the locking screw 36 is installed at the upper end of the locking block 35 in a thread fit mode, during specific work, the locking screw 36 is manually rotated to separate the dovetail blocks 32 from the workbench 2, so that the U-shaped moving plate 31 is separated from the rotary crushing device 4, the grapes which are manually subjected to stem removal and cleaning are placed, after the position of the U-shaped moving plate 31 is determined, the locking screw 36 is manually rotated to lock and fix the U-shaped moving plate 31 by the locking block 35, and the sliding plate 33 is manually pushed inwards to seal the upper end of the rotary crushing device 4 by the cover plate 34.

The rotary crushing device 4 comprises a rotary connecting mechanism 41, a fixed cylinder 42, a conical baffle 43, a crushing mechanism 44 and a separating mechanism 45, the rotary connecting mechanism 41 is installed at the upper end of the inner side of the U-shaped moving plate 31, the fixed cylinder 42 is arranged at the lower end of the rotary connecting mechanism 41, the conical baffle 43 is welded at the lower end of the fixed cylinder 42, the conical baffle 43 is installed in the middle of the workbench 2, the crushing mechanism 44 is installed inside the fixed cylinder 42, the separating mechanism 45 is arranged outside the crushing mechanism 44, and the separating mechanism 45 is located between the fixed cylinder 42 and the crushing mechanism 44. during the concrete work, the crushing mechanism 44 is driven to rotate by the rotary connecting mechanism 41, so that the crushing mechanism 44 crushes the grapes which are cleaned by removing stalks out juice, and during the crushing process of the grapes, the separating mechanism 45 is driven to rotate by the crushing mechanism 44, so that the separating mechanism 45 centrifugally separates the crushed grapes, and then primary filtering the crushed grapes.

The supporting device 5 comprises four supporting plates 51, rollers 52, three supporting rods 53 and a rotating block 54, the supporting plates 51 are symmetrically welded in the fixed cylinder 42 in the vertical direction, the rollers 52 are installed on the inner side of the supporting plates 51 in a sliding fit mode, the supporting rods 53 are evenly welded at the upper end inside the sieve cylinder 451, the inner side of each supporting rod 53 is connected with the corresponding rotating block 54, the rotating blocks 54 are installed at the upper end of the crushing mechanism 44 through bearings, and during specific work, the rotating connecting mechanism 41 drives the separating mechanism 45 to rotate, the outer side of the separating mechanism 45 is limited and supported through the supporting plates 51, the inner side of the separating mechanism 45 is limited and supported through the supporting rods 53, so that the working stability of the separating mechanism 45 is guaranteed, the separating mechanism 45 is attached to the roller 52, and friction between the supporting plates 51 and the separating mechanism.

The rotary connecting mechanism 41 comprises a rotary motor 411, a guide block 412, a guide rod 413, a thread block 414, an adjusting screw 415, a connecting block 416, two clamping blocks 417 and two clamping springs 418, the guide block 412 is welded on the left side of the rotary motor 411, the guide rod 413 is installed inside the guide block 412 in a sliding fit mode, the upper end of the guide rod 413 is welded on the U-shaped moving plate 31, the thread block 414 is welded on the right side of the rotary motor 411, the adjusting screw 415 is installed inside the thread block 414 in a thread fit mode, the upper end of the adjusting screw 415 is installed on the U-shaped moving plate 31 in a thread connection mode, the connecting block 416 is welded on the output end of the rotary motor 411, the clamping blocks 417 are symmetrically installed inside the connecting block 416 in a left-right sliding fit mode, the connecting block 416 is connected with the clamping blocks 417 through the clamping springs 418, and the clamping springs 418 have, during specific work, the adjusting screw 415 is rotated manually, the rotating motor 411 descends along the guide rod 413, the connecting block 416 descends, the connecting block 416 is clamped with the crushing mechanism 44, the clamping block 417 is extruded through the clamping spring 418, the clamping block 417 clamps and locks the crushing mechanism 44 in the connecting block 416, after the connecting block 416 and the crushing mechanism 44 are clamped and locked, the rotating motor 411 drives the crushing mechanism 44 to rotate, and therefore the crushing mechanism 44 crushes grapes after stem removal and cleaning to obtain juice.

The material crushing mechanism 44 comprises a rotary mounting shaft 441, material crushing blades 442, three material crushing rods 443 and three material stirring rods 444, the upper end of the rotary mounting shaft 441 is mounted inside the connecting block 416 in a sliding fit manner, the lower end of the rotary mounting shaft 441 is mounted on the separating mechanism 45 through a bearing, the material crushing blades 442 are welded on the upper portion of the rotary mounting shaft 441, the material crushing rods 443 are welded on the lower end of the rotary mounting shaft 441, the crushed aggregates 443 are evenly arranged along the circumferential direction of the rotating installation shaft 441, the lower end of the outer side of the crushed aggregates 443 is welded with the material stirring block 444, when the material stirring machine works, the rotating installation shaft 441 is driven to rotate by the rotating motor 411, thereby driving the crushed material blades 442 to rotate, so that the crushed material blades 442 break the grapes which are subjected to stem removal and cleaning into juice, and in the process of breaking the grapes into juice, the shredder bar 443 is rotated by rotating the mounting shaft 441, so that the bottom grapes are scooped up by the blender block 444, and the bottom grapes are circularly smashed into juice by the shredder blades 442.

The separating mechanism 45 comprises a screen cylinder 451, a limiting ring 452, a bottom screen block 453, a driving gear 454, four driven gears 455 and a protective cover 456, wherein the screen cylinder 451 is positioned inside the fixed cylinder 42, the screen cylinder 451 is installed on the supporting device 5 in a sliding fit manner, the limiting ring 452 is welded on the outer side of the lower end of the screen cylinder 451, the limiting ring 452 performs limiting and fixing functions on the screen cylinder 451, the bottom screen block 453 is welded inside the lower end of the screen cylinder 451, the driving gear 454 is arranged in the middle of the bottom screen block 453 and welded on the lower end of the rotating installation shaft 441, the driven gears 455 are uniformly arranged on the driving gear 454 along the circumferential direction of the driving gear 454, the driven gears 455 are installed on the bottom screen block 453 through bearings, the protective cover 456 is installed on the upper end of the bottom screen block 453 in a threaded connection manner, the protective cover 456 performs a sealing protection function on the driving gear 454, drive gear 454 is driven through rotatory installation axle 441 for driven gear 455 drives bottom screen mass 453 and a sieve section of thick bamboo 451 and rotates, thereby makes bottom screen mass 453 and a sieve section of thick bamboo 451 carry out centrifugal separation to the grape after smashing, and then carries out primary filtration to the grape after smashing.

Secondary filter equipment 6 includes drainage head 61 and filter sieve 62, drainage head 61 upper end is installed at toper baffle 43 lower extreme through screw-thread fit's mode, drainage head 61 upper end joint has filter sieve 62, and filter sieve 62 sets up inside drainage head 61, during specific work, the filterable grape juice of first centrifugal separation falls to drainage head 61, make filter sieve 62 carry out secondary filter to the first filterable grape juice, thereby filter the particulate matter in the grape juice to filter sieve 62, when solid particle is more in filter sieve 62, through artifical rotatory drainage head 61, thereby take off filter sieve 62, and then get rid of the solid particle in the filter sieve 62.

The upper end of the rotating installation shaft 441 is welded with a rear transverse short shaft which is clamped inside the connecting block 416 and is clamped with the connecting block 416, so that stable transmission between the rotating motor 411 and the rotating installation shaft 441 is ensured.

Mix material piece 444 for from the past backward gradually decurrent structure, and mix the material piece 444 upper end outside and be provided with the baffle, mix the gradually decurrent structure of material piece 444 and conveniently mix material piece 444 and shovel bottom grape, guarantee that crushed aggregates blade 442 breaks out juice with bottom grape circulation, and the outside is provided with the baffle and makes the grape shovel draw close to the center after, makes things convenient for crushed aggregates blade 442 to smash the grape.

The lower extreme of spacing collar 452 is provided with the ball, links to each other through the ball between lower extreme backup pad 51 and the spacing collar 452, and the ball is convenient for reduce the friction between spacing collar 452 and the lower extreme backup pad 51, ensures a sieve section of thick bamboo 451 rotation stability.

The lower end of the bottom sieve block 453 is provided with a round hole, the middle of the bottom sieve block 453 is provided with an internal gear, the internal gear is meshed with the driven gear 455, the round hole is convenient for grape juice to flow out, and the internal gear is meshed with the driven gear 455 to ensure synchronous and stable transmission.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A healthy wine brewing raw material fermentation processing method is characterized in that: the specific fermentation processing method comprises the following steps:

s1, feeding: manually putting the grapes which are subjected to stem removal and cleaning into a sieve drum (451);

s2, butt joint: after the feeding is finished, the U-shaped moving plate (31) is pushed manually, so that the connecting block (416) is positioned right above the rotary mounting shaft (441), after the position between the connecting block (416) and the rotary mounting shaft (441) is determined, the locking screw (36) is rotated manually, so that the U-shaped moving plate (31) is fixed by the locking block (35), and the adjusting screw (415) is rotated manually, so that the connecting block (416) is butted with the rotary mounting shaft (441);

s3, crushing: after butt joint is completed, the cover plate (34) is manually sealed with the fixed cylinder (42), and after sealing is completed, the rotating mounting shaft (441) is driven to rotate through the rotating motor (411), so that the crushed material blades (442) break the grapes, and grape juice is extruded;

s4, filtering and separating: in the material crushing process, the driving gear (454) is driven to rotate by rotating the mounting shaft (441), so that the driven gear (455) drives the bottom sieve block (453) and the sieve cylinder (451) to rotate, the sieve cylinder (451) carries out centrifugal separation and filtration on crushed grapes, and the bottom sieve block (453) and the sieve cylinder (451) carry out perfect primary filtration on the crushed grapes;

s5, secondary filtration: after separation, the primary filtered must falls to a drainage head (61) so that the primary filtered must is filtered a second time by a filter sieve (62);

s6, blanking: the grape juice after the secondary filtration falls into a containing container (7) for centralized collection;

in the fermentation process of the brewing material in the above steps S1-S6, the brewing material is subjected to the fermentation process by using a specially designed apparatus, the device comprises a mounting plate (1), a workbench (2), a moving device (3), a rotary material crushing device (4), a supporting device (5), a secondary filtering device (6) and a containing container (7), a workbench (2) is installed in the middle of the upper end of the installing plate (1), a moving device (3) is installed at the upper end of the workbench (2), a rotary material crushing device (4) is installed inside the moving device (3), a supporting device (5) is installed inside the rotary material crushing device (4), a secondary filtering device (6) is installed at the lower end of the rotary material crushing device (4), a containing container (7) is arranged below the secondary filtering device (6), and the containing container (7) is placed inside the workbench (2); wherein:

the moving device (3) comprises a U-shaped moving plate (31), two dovetail blocks (32), two sliding plates (33), two cover plates (34), a locking block (35) and a locking screw (36), the dovetail blocks (32) are welded at the lower end of the U-shaped moving plate (31) in a bilateral symmetry mode, the dovetail blocks (32) are installed inside the workbench (2) in a sliding fit mode, the sliding plates (33) are installed at the middle part of the U-shaped moving plate (31) in a bilateral symmetry mode in a sliding fit mode, the cover plates (34) are welded at the inner sides of the sliding plates (33), the locking block (35) is welded at the left side of the lower end of the U-shaped moving plate (31), and the locking screw (36) is installed at the upper end of;

the rotary material crushing device (4) comprises a rotary connecting mechanism (41), a fixed cylinder (42), a conical baffle (43), a material crushing mechanism (44) and a separating mechanism (45), the rotary connecting mechanism (41) is installed at the upper end of the inner side of the U-shaped moving plate (31), the fixed cylinder (42) is arranged at the lower end of the rotary connecting mechanism (41), the conical baffle (43) is welded at the lower end of the fixed cylinder (42), the conical baffle (43) is installed in the middle of the workbench (2), the material crushing mechanism (44) is installed inside the fixed cylinder (42), the separating mechanism (45) is arranged on the outer side of the material crushing mechanism (44), and the separating mechanism (45) is located between the fixed cylinder (42) and the material crushing mechanism (44);

the supporting device (5) comprises four supporting plates (51), roller columns (52), three supporting rods (53) and a rotating block (54), the supporting plates (51) are welded in the fixed cylinder (42) in an up-down symmetrical mode, the roller columns (52) are installed on the inner side of the supporting plates (51) in a sliding fit mode, the supporting rods (53) are evenly welded at the upper end of the inner portion of the screen cylinder (451), the inner sides of the supporting rods (53) are connected through the rotating block (54), and the rotating block (54) is installed at the upper end of the material crushing mechanism (44) through a bearing.

2. The method of claim 1, wherein the method comprises the steps of: the rotary connecting mechanism (41) comprises a rotary motor (411), a guide block (412), a guide rod (413), a thread block (414), an adjusting screw rod (415), a connecting block (416), two clamping blocks (417) and two clamping springs (418), wherein the guide block (412) is welded on the left side of the rotary motor (411), the guide rod (413) is installed inside the guide block (412) in a sliding fit mode, the upper end of the guide rod (413) is welded on a U-shaped moving plate (31), the thread block (414) is welded on the right side of the rotary motor (411), the adjusting screw rod (415) is installed inside the thread block (414) in a thread fit mode, the upper end of the adjusting screw rod (415) is installed on the U-shaped moving plate (31) in a threaded connection mode, the connecting block (416) is welded at the output end of the rotary motor (411), and the clamping blocks (417) are installed inside the connecting block (416), the connecting block (416) is connected with the clamping block (417) through a clamping spring (418).

3. The method of fermenting a healthy alcoholic beverage brewing material according to claim 2, comprising: crushed aggregates mechanism (44) are including rotatory installation axle (441), crushed aggregates blade (442), three crushed aggregates pole (443) and three material (444) of mixing, install inside connecting block (416) through sliding fit's mode in rotatory installation axle (441) upper end, install on separating mechanism (45) through the bearing rotatory installation axle (441) lower extreme, the welding of rotatory installation axle (441) upper portion has crushed aggregates blade (442), the welding of rotatory installation axle (441) lower extreme has crushed aggregates pole (443), and crushed aggregates pole (443) evenly arrange along rotatory installation axle (441) circumference, the welding of crushed aggregates pole (443) outside lower extreme has material (444) of mixing.

4. The method of claim 3, wherein the method comprises the steps of: separating mechanism (45) is including a sieve section of thick bamboo (451), spacing ring (452), bottom sieve piece (453), drive gear (454), four driven gear (455) and visor (456), sieve section of thick bamboo (451) are located inside fixed section of thick bamboo (42), and install on strutting arrangement (5) through sliding fit's mode sieve section of thick bamboo (451), the outside welding of sieve section of thick bamboo (451) lower extreme has spacing ring (452), sieve section of thick bamboo (451) lower extreme internal weld has bottom sieve piece (453), bottom sieve piece (453) middle part is provided with drive gear (454), drive gear (454) welding is at rotatory installation axle (441) lower extreme, driven gear (455) have evenly arranged along its circumference in drive gear (454), driven gear (455) are installed on bottom sieve piece (453) through the bearing, visor (456) are installed through threaded connection's mode to bottom sieve piece (453) upper end.

5. The method of claim 1, wherein the method comprises the steps of: secondary filter equipment (6) are including drainage head (61) and filter sieve (62), and drainage head (61) upper end is installed at toper baffle (43) lower extreme through screw-thread fit's mode, and drainage head (61) upper end joint has filter sieve (62), and filter sieve (62) set up inside drainage head (61).

6. The method of claim 3, wherein the method comprises the steps of: the upper end of the rotating installation shaft (441) is welded with a rear transverse short shaft, and the transverse short shaft is clamped inside the connecting block (416).

7. The method of claim 3, wherein the method comprises the steps of: the material mixing block (444) is of a structure gradually downward from front to back, and a baffle is arranged on the outer side of the upper end of the material mixing block (444).

8. The method of claim 4, wherein the method comprises the steps of: the lower end of the limiting ring (452) is provided with a ball, and the lower end support plate (51) is connected with the limiting ring (452) through the ball.

9. The method of claim 4, wherein the method comprises the steps of: the lower end of the bottom sieve block (453) is provided with a round hole, the middle of the bottom sieve block (453) is provided with an internal gear, and the internal gear is meshed with the driven gear (455).

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